# by amounra 0413 : http://www.aumhaa.com

from __future__ import with_statement
import Live
import time
import math

""" All of the Framework files are listed below, but we are only using using some of them in this script (the rest are commented out) """
from _Framework.ButtonElement import ButtonElement # Class representing a button a the controller
from _Framework.ButtonMatrixElement import ButtonMatrixElement # Class representing a 2-dimensional set of buttons
from _Framework.ChannelStripComponent import ChannelStripComponent # Class attaching to the mixer of a given track
from _Framework.CompoundComponent import CompoundComponent # Base class for classes encompasing other components to form complex components
from _Framework.ControlElement import ControlElement # Base class for all classes representing control elements on a controller 
from _Framework.ControlSurface import ControlSurface # Central base class for scripts based on the new Framework
from _Framework.ControlSurfaceComponent import ControlSurfaceComponent # Base class for all classes encapsulating functions in Live
#from _Framework.DeviceComponent import DeviceComponent # Class representing a device in Live
from _Framework.EncoderElement import EncoderElement # Class representing a continuous control on the controller
from _Framework.InputControlElement import * # Base class for all classes representing control elements on a controller
from _Framework.MixerComponent import MixerComponent # Class encompassing several channel strips to form a mixer
from _Framework.ModeSelectorComponent import ModeSelectorComponent # Class for switching between modes, handle several functions with few controls
from _Framework.NotifyingControlElement import NotifyingControlElement # Class representing control elements that can send values
from _Framework.SessionComponent import SessionComponent # Class encompassing several scene to cover a defined section of Live's session
from _Framework.TransportComponent import TransportComponent # Class encapsulating all functions in Live's transport section

from _Generic.Devices import *

"""Imports from _Mono_Framework"""
from _Mono_Framework.DetailViewControllerComponent import DetailViewControllerComponent
from _Mono_Framework.CodecEncoderElement import CodecEncoderElement
from _Mono_Framework.EncoderMatrixElement import EncoderMatrixElement
from _Mono_Framework.MonoBridgeElement import MonoBridgeElement
from _Mono_Framework.MonoButtonElement import MonoButtonElement
from _Mono_Framework.MonoEncoderElement import MonoEncoderElement
from _Mono_Framework.MonomodComponent import MonomodComponent
from _Mono_Framework.Live8DeviceComponent import Live8DeviceComponent as DeviceComponent
from _Mono_Framework.LiveUtils import *

"""Custom files, overrides, and files from other scripts"""
from CodecDeviceSelectorComponent import CodecDeviceSelectorComponent
from CodecResetSendsComponent import CodecResetSendsComponent
from CodecDeviceComponent import CodecDeviceComponent
from SpecialCodecDeviceComponent import SpecialCodecDeviceComponent
from Map import *

def tracks_to_use(self):
	return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks)
	
MixerComponent.tracks_to_use = tracks_to_use


""" Here we define some global variables """
factoryreset = (240,0,1,97,4,6,247)
btn_channels = (240, 0, 1, 97, 4, 19, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, 0, 247);
enc_channels = (240, 0, 1, 97, 4, 20, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, CHANNEL, 247);

SLOWENCODER = (240, 0, 1, 97, 4, 30, 00, 00, 247)
NORMALENCODER = (240, 0, 1, 97, 4, 30, 02, 00, 247)
FASTENCODER = (240, 0, 1, 97, 4, 30, 04, 00, 247)

class CodecMonoButtonElement(MonoButtonElement):


	def __init__(self, *a, **k):
		super(CodecMonoButtonElement, self).__init__(*a, **k)
		self.set_color_map(tuple(COLOR_MAP))
	


class CodecMonomodComponent(MonomodComponent):


	def __init__(self, *a, **k):
		super(CodecMonomodComponent, self).__init__(*a, **k)
		self._host_name = 'Code'
	

	def select_client(self, number, *a, **k):
		self._script.set_local_ring_control(self._active_client._local_ring_control)
		self._script.set_absolute_mode(self._active_client._absolute_mode)
		super(CodecMonomodComponent, self)._select_client(number, *a, **k)
	

	def _matrix_value(self, value, x, y, is_momentary):	   #to be sent to client from controller
		assert (self._grid != None)
		assert (value in range(128))
		assert isinstance(is_momentary, type(False))
		if (self.is_enabled()):
			if self._shift_pressed == 1:
				if value > 0:
					if y == 0:
						self._select_client(x + (self._bank_add * 8))
						self._display_bank()
					elif y == 1:
						self._active_client._set_channel(x + (self._chan_add * 8))
						self._display_channel()
					elif (x == 0) and (y == 2):
						self._bank_add = abs(self._bank_add - 1)
						self._display_bank()
					elif (x == 7) and (y == 2):
						self._chan_add = abs(self._chan_add - 1)
						self._display_channel()
					elif (x in range(2, 4)) and (y in range(2, 4)):
						self._change_offset(0, 0)
					elif (x in range(4, 6)) and (y in range(2, 4)):
						self._change_offset(8, 0)
					elif (x in range(2, 4)) and (y in range(4, 6)):
						self._change_offset(0, 8)
					elif (x in range(4, 6)) and (y in range(4, 6)):
						self._change_offset(8, 8)
					elif (y == 7):
						if self._alt_pressed > 0:
							if (x == 7):
								self.select_active_client()
						else:
							self._active_client._send_key(x, value)		
			elif self._shift_pressed == 0:	
				if self._locked == 1:
					if y == 7:
						if self._alt_pressed > 0:
							#added from here
							if x == 7:
								self.select_active_client()
							else:
								self._active_client._send_key(x, value)
							#to here
						else:
							self._active_client._send_key(x, value) 
					else:
						self._active_client._send_grid(x + self._x, y + self._y, value)
				else:
					self._active_client._send_grid(x + self._x, y + self._y, value)
	

	def _alt_value(self, value):
		if self._shift_pressed == 0:
			self._alt_pressed = value != 0
			self._active_client._send('alt', int(self._alt_pressed))
			self.update()
	

	def _key_value(self, value, sender):
		if self.is_enabled():
			self._active_client._send_key(self._keys.index(sender), int(value!=0))
	

	def _send_key(self, index, value):				#to be sent to controller from client
		if self.is_enabled():
			if (self._shift_pressed > 0) or (self._locked > 0):
				if self._grid != None:
					self._grid.get_button(index, 7).send_value(int(self._colors[value]))
				if self._dial_button_matrix != None:
					for index in range(8):
						self._dial_button_matrix.get_button(index, 4).send_value(int(self._colors[self._active_client._key[index]]))
			if  self._keys != None and len(self._keys) > index:
				self._keys[index].send_value(int(self._colors[value]))
	

	def on_enabled_changed(self):
		super(CodecMonomodComponent, self).on_enabled_changed()
		if self._active_client != None:
			if self.is_enabled():
				self._active_client._device_component.update()
				self._script.set_absolute_mode(self._active_client._absolute_mode)
				self._script.set_local_ring_control(self._active_client._local_ring_control)
			else:
				for control in self._parameter_controls:
					control.release_parameter()
				self._script.set_absolute_mode(1)
				self._script.set_local_ring_control(1)
	

	def _dial_matrix_value(self, value, x, y):
		if self.is_enabled() and self._active_client != None:
			if self._script._absolute_mode == 0:
				value = RELATIVE[int(value == 1)]
			self._active_client._send_dial(x, y, value)
	

	def _reset_encoder(self, coord):
		self._dial_matrix.get_dial(coord[0], coord[1])._reset_to_center()
	
		
	def _dial_button_matrix_value(self, value, x, y, force):
		if (self.is_enabled()) and (self._shift_pressed is False) and (self._active_client != None):
			if self._locked == 1 and y == 4:
				self._active_client._send_key(x, value)
				self._update_keys()
			else:
				self._active_client._send_dial_button(x, y, value)
		elif(self.is_enabled()) and (self._shift_pressed is True):
			if (y == 0) and (value > 0):
				if (x < 8):
					self._select_client(x + (self._bank_add * 8))
					self._display_bank()
				else:
					self._locked = abs(self._locked - 1)
					self.update()
			elif (y == 1):
				if (y < 8) and (value > 0):
					self._active_client._set_channel(x + (self._chan_add * 8))
					self._display_channel()
				else:
					self._alt_pressed = int(value != 0)
					self._active_client._send('alt', int(self._alt_pressed))
					self.update()
			elif (y == 2):
				if (x == 0) and (value > 0):
					self._bank_add = abs(self._bank_add - 1)
					self._display_bank()
				elif (x == 7) and (value > 0):
					self._chan_add = abs(self._chan_add - 1)
					self._display_channel()
			elif (y == 4):
				if (self._alt_pressed > 0) and (x == 7) and (val > 0):
						self.select_active_client()
				else:
					self._active_client._send_key(x, value)	
					self._update_keys()
	

	def _send_wheel(self, column, row, wheel, parameter=None):		#to be sent to controller from client
		if self.is_enabled() and wheel != None:
			if column < 8 and row < 4:
				dial = self._dial_matrix.get_dial(column, row)
				if(parameter=='value'):
					dial._ring_value = int(wheel['value'])
				dial._ring_mode = int(wheel['mode'])
				dial._ring_green = int(wheel['green']!=0)
				if(parameter=='custom'):
					dial._ring_custom = dial._calculate_custom(str(wheel['custom']))
			if self._shift_pressed == True:
				if row in range(2, 3) and column in range(0, 7):
					self._dial_button_matrix.send_value(column, row, wheel['white'])
			elif self._locked == True:
				if row in range(0, 3):
					self._dial_button_matrix.send_value(column, row, wheel['white'])
			else:
				self._dial_button_matrix.send_value(column, row, wheel['white'])
				
	

	def _update_wheel(self):
		if self._dial_button_matrix != None:
			if self._shift_pressed is False:
				for column in range(9):
					for row in range(5):
							self._send_wheel(column, row, self._active_client._wheel[column][row])
	

	def set_local_ring_control(self, val = 1):
		#self._script.log_message('set local ring control' + str(val))
		self._local_ring_control = (val!=0)
		self._script.set_local_ring_control(self._local_ring_control)
	

	def set_absolute_mode(self, val=1):
		self._absolute_mode = (val!=0)
		self._script.set_absolute_mode(self._absolute_mode)
	

	#temp override to get things working in L9
	def set_appointed_device(self, *a, **k):
		pass
	


class MonomodModeComponent(ModeSelectorComponent):


	def __init__(self, callback, script, *a, **k):
		super(MonomodModeComponent, self).__init__(*a, **k)
		assert hasattr(callback, '__call__')
		self.__mode_index = 0
		self._script = script
		self.update = callback
	

	def number_of_modes(self):
		return 2
	

	def set_mode_toggle(self, button):
		assert (button == None or isinstance(button, ButtonElement))
		if self._mode_toggle != None:
			self._mode_toggle.remove_value_listener(self._toggle_value)
		self._mode_toggle = button
		if self._mode_toggle != None:
			self._mode_toggle.add_value_listener(self._toggle_value)
	

	def set_mode_buttons(self, buttons):
		for button in self._modes_buttons:
			button.remove_value_listener(self._mode_value)
		self._modes_buttons = []
		if (buttons != None):
			for button in buttons:
				assert isinstance(button, ButtonElement)
				identify_sender = True
				button.add_value_listener(self._mode_value, identify_sender)
				self._modes_buttons.append(button)
			for index in range(len(self._modes_buttons)):
				if (index == self._mode_index):
					self._modes_buttons[index].turn_on()
				else:
					self._modes_buttons[index].turn_off()
	


class ShiftModeComponent(ModeSelectorComponent):


	def __init__(self, callback, script, *a, **k):
		super(ShiftModeComponent, self).__init__(*a, **k)
		assert hasattr(callback, '__call__')
		self.__mode_index = 0
		self._script = script
		self.update = callback
	

	def number_of_modes(self):
		return 4
	

	def set_mode_toggle(self, button):
		assert (button == None or isinstance(button, ButtonElement))
		if self._mode_toggle != None:
			self._mode_toggle.remove_value_listener(self._toggle_value)
		self._mode_toggle = button
		if self._mode_toggle != None:
			self._mode_toggle.add_value_listener(self._toggle_value)
	

	def set_mode_buttons(self, buttons):
		assert buttons != None
		assert isinstance(buttons, tuple)
		assert len(buttons) - 1 in range(16)
		for button in buttons:
			assert isinstance(button, ButtonElement)
			identify_sender = True
			button.add_value_listener(self._mode_value, identify_sender)
			self._modes_buttons.append(button)
	


class Codec(ControlSurface):
	__module__ = __name__
	__doc__ = " MonoCode controller script "


	def __init__(self, c_instance, *a, **k):
		super(Codec, self).__init__(c_instance, *a, **k)
		self._monomod_version = 'b995'
		self._version_check = 'b995'
		self._host_name = 'Codec'
		self._color_type = 'Monochrome'
		self._link_mixer = LINK_MIXER
		self._hosts = []
		self._linked_script = None
		self._local_ring_control = True
		self._last_device = None
		self._device_list = [None, None, None, None]
		self._device_select_buttons = None
		self._last_device_component = None
		self._timer = 0
		self._touched = 0
		self._locked = False
		self.flash_status = 1
		self._shift_button = None
		self._shift_pressed = 0
		self._shift_pressed_timer = 0
		self._shift_thresh = SHIFT_THRESH
		self._use_device_selector = USE_DEVICE_SELECTOR
		self._device_selection_follows_track_selection=FOLLOW
		with self.component_guard():
			#self.local_ring_control(True)
			#self.set_absolute_mode(True)
			self._setup_controls()
			self._setup_monobridge()
			self._setup_device_controls()
			self._setup_special_device_control() 
			self._device.append(self._special_device)			#necessary for device browsing to work with special device
			self._setup_device_chooser()
			self._setup_mixer_controls()
			self._setup_monomod()
			self._setup_modes() 
			self._setup_device_selector()
			self._setup_send_reset()
			self._setup_default_buttons()
			self.set_local_ring_control(1)
			self.song().view.add_selected_track_listener(self._update_selected_device)
			self._initialize_code()
			self._shift_mode.set_mode(0)
			self._monomod_mode.set_mode(0)
		self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec ' + str(self._monomod_version) + ' log opened >>>>>>>>>>>>>>>>>>>>>>>>>')
		self.show_message('Codec Control Surface Loaded')
		self.request_rebuild_midi_map()
	


	"""script initialization methods"""
	def _initialize_code(self):
		self._send_midi(factoryreset)
		self._send_midi(btn_channels)
		self._send_midi(enc_channels)	
	

	def _setup_monobridge(self):
		self._monobridge = MonoBridgeElement(self)
		self._monobridge.name = 'MonoBridge'
	

	def _setup_controls(self):
		is_momentary = True
		self._livid = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
		
		self._dial = [None for index in range(8)]
		for column in range(8):
			self._dial[column] = [None for index in range(4)]
			for row in range(4):
				self._dial[column][row] = CodecEncoderElement(MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column], Live.MidiMap.MapMode.absolute, 'Dial_' + str(column) + '_' +	str(row), (column + (row*8)), self)	#CODE_DIALS[row][column]
				
		self._button = [None for index in range(8)]
		for column in range(8):
			self._button[column] = [None for index in range(4)]
			for row in range(4):
				self._button[column][row] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_BUTTONS[row][column], 'Button_' + str(column) + '_' + str(row), self) 
		

		self._column_button = [None for index in range(8)]
		for index in range(8):
			self._column_button[index] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index), self)		
			
		self._row_button = [None for index in range(4)]
		for index in range(4):
			self._row_button[index] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index], 'Row_Button_' + str(index), self)		

		self._dial_matrix = EncoderMatrixElement(self)
		self._dial_matrix.name = 'Encoder_Matrix'
		for row in range(4):
			dial_row = tuple([self._dial[column][row] for column in range(8)])
			self._dial_matrix.add_row(dial_row)

		self._button_matrix = ButtonMatrixElement()
		self._button_matrix.name = 'Button_Matrix'
		for row in range(4):
			button_row = [self._button[column][row] for column in range(8)]
			button_row.append(self._row_button[row])
			self._button_matrix.add_row(tuple(button_row))
		self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
	

	def _setup_modes(self):
		self._monomod_mode = MonomodModeComponent(self._mod_mode_update, self)
		self._monomod_mode.name = 'Monomod_Mode'
		self.set_shift_button(self._livid)
		self._shift_mode = ShiftModeComponent(self._shift_update, self) 
		self._shift_mode.name = 'Shift_Mode'
		self._shift_mode.set_mode_buttons(tuple([self._row_button[0], self._row_button[1], self._row_button[2], self._row_button[3]]))
	

	def _setup_transport_control(self):
		self._transport = TransportComponent() 
		self._transport.name = 'Transport'
	

	def _setup_monomod(self):
		self._host = CodecMonomodComponent(self)
		self._host.name = 'Monomod_Host'
		self._host._set_dial_matrix(self._dial_matrix, self._button_matrix)
		self.hosts = [self._host]
		encs = []
		for row in range(4):
			for col in range(8):
				encs.append(self._dial[col][row])
		self._host._set_parameter_controls(encs)
	

	def _setup_mixer_controls(self):
		is_momentary = True
		self._num_tracks = (8)
		self._session = SessionComponent(self._num_tracks, 0)
		self._session.name = 'Session'
		self._mixer = MixerComponent(self._num_tracks, 0, False, False)
		self._mixer.name = 'Mixer'
		self._mixer._next_track_value = self._mixer_next_track_value(self._mixer)
		self._mixer._prev_track_value = self._mixer_prev_track_value(self._mixer)
		self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
		#for index in range(8):
			#use the bottom row of encoders for volume, so add 24 to offset the index
		#	self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
		for index in range(8):
			self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
			self._mixer.channel_strip(index)._invert_mute_feedback = True
			self._mixer.channel_strip(index)._mute_value = self._channelstrip_mute_value(self._mixer.channel_strip(index))
			self._mixer.channel_strip(index)._solo_value = self._channelstrip_solo_value(self._mixer.channel_strip(index))
			#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
		self.song().view.selected_track = self._mixer.channel_strip(0)._track #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error
		self._session.set_mixer(self._mixer)
	

	def _setup_device_controls(self):
		self._device = [None for index in range(4)]
		for index in range(4):
			self._device[index] = CodecDeviceComponent(self)
			self._device[index].name = 'CodecDevice_Component_' + str(index)
			device_param_controls = []
			for control in range(8):
				device_param_controls.append(self._dial[control][index])
			self._device[index].set_on_off_button(self._button[1][index])
			self._device[index].set_lock_button(self._button[2][index])
			self._device[index].set_bank_nav_buttons(self._button[4][index], self._button[5][index])
			self._device[index].set_nav_buttons(self._button[6][index], self._button[7][index])
			self._device[index].set_parameter_controls(tuple(device_param_controls))
		self.set_device_component(self._device[0])
		self._last_device_component = self._device[0]
	

	def _setup_special_device_control(self):
		self._special_device = SpecialCodecDeviceComponent(self)
		self._special_device.name = 'SpecialCodecDeviceComponent'
		self._special_device.set_on_off_button(self._button[1][0])
		self._special_device.set_lock_button(self._button[2][0])
		self._special_device.set_bank_nav_buttons(self._button[4][0], self._button[5][0])
		self._special_device.set_nav_buttons(self._button[6][0], self._button[7][0])
		device_param_controls = []
		for row in range(4):
			for column in range(8):
				device_param_controls.append(self._dial[column][row])
		self._special_device.set_parameter_controls(tuple(device_param_controls))
	

	def _setup_device_chooser(self):
		self._selected_device = self._device[0]
		self._last_selected_device = self._device[0]
		self._device_select_buttons = [self._button[0][index] for index in range(4)]
		for button in self._device_select_buttons:
			button.add_value_listener(self._device_select_value, True)
	

	def _setup_device_selector(self):
		self._device_selector = CodecDeviceSelectorComponent(self, 'c', self._device + [self._special_device])
		self._device_selector.name = 'Device_Selector'
		self._device_selector.set_mode_buttons(self._column_button)
		#self._device_selector.set_mode_toggle(self._livid)
	

	def _setup_send_reset(self):
		self._send_reset = CodecResetSendsComponent(self)
		self._send_reset.set_buttons(self._button)
	

	def _setup_default_buttons(self):
		self._value_default = ParameterDefaultComponent(self)
		buttons = []
		dials = []
		for column in self._button:
			for button in column:
				buttons.append(button)
		for column in self._dial:
			for dial in column:
				dials.append(dial)
		self._value_default.set_buttons(buttons)
		self._value_default.set_dials(dials)
	


	"""multiple device support"""
	def _device_select_value(self, value, sender):
		#self.log_message('device_select_value ' + str(value) + ' ' + str(self._device_select_buttons.index(sender)))
		if not self._shift_pressed:
			if sender.is_momentary or value > 0:
				if self._shift_mode._mode_index == 2:
					self.set_device_component(self._device[self._device_select_buttons.index(sender)])
					self._last_device_component = self._device_component
					if self._device_component != None and isinstance(self._device_component._device, Live.Device.Device):
						if self._device_component.find_track(self._device_component._device) == self.song().view.selected_track:
							self._device_component.display_device()
	


	"""livid double press mechanism"""
	def set_shift_button(self, button):
		assert ((button == None) or (isinstance(button, MonoButtonElement)))
		if self._shift_button != None:
			self._shift_button.remove_value_listener(self._shift_value)
		self._shift_button = button
		if self._shift_button != None:
			self._shift_button.add_value_listener(self._shift_value)
	

	def _shift_value(self, value):
		self._shift_pressed = int(value != 0)
		if self._shift_pressed > 0:
			self._send_midi(SLOWENCODER)
			if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
				#if(self._host.is_enabled() != True)
				self.log_message('mod mode: ' + str(abs(self._monomod_mode._mode_index - 1)))
				self._monomod_mode.set_mode(max(0, min(1, abs(self._monomod_mode._mode_index - 1))))
				#else:
				#	self._monomod_mode.set_mode(0)
			self._shift_pressed_timer = self._timer % 256
		else:
			self._send_midi(NORMALENCODER)
	

	def _mod_mode_update(self):
		if(self._monomod_mode._mode_index == 0):
			self._host._set_shift_button(None)
			self._host.set_enabled(False)
			self._dial_matrix.reset()
			self._shift_mode.set_enabled(True)
			self._shift_update()
			self.request_rebuild_midi_map()
			self._livid.turn_off()
		elif(self._monomod_mode._mode_index == 1):
			self._shift_mode.set_enabled(False)
			self._deassign_all()
			self._dial_matrix.reset()
			self._button_matrix.reset()			
			self._livid.turn_on()
			if not self._host._active_client == None:
				self._host.set_enabled(True)
				self._host._set_shift_button(self._livid)
			else:
				self._assign_alternate_mappings(1)
			self.request_rebuild_midi_map()
	


	"""Mode Functions"""
	def _shift_update(self):
		if(self._shift_mode.is_enabled()):
			with self.component_guard():
				self.allow_updates(False)
				#if(not self._in_build_midi_map):
				#	self.set_suppress_rebuild_requests(True)
				self._deassign_all()
				if(self._shift_mode._mode_index is 0):
					self._assign_volume()
				elif(self._shift_mode._mode_index is 1):
					self._assign_sends()
				elif(self._shift_mode._mode_index is 2):
					self._assign_devices()
				elif(self._shift_mode._mode_index is 3):
					self._assign_special_device()
				for index in range(self._shift_mode.number_of_modes()):
					if index == self._shift_mode._mode_index:
						self._shift_mode._modes_buttons[index].turn_on()
					else:
						self._shift_mode._modes_buttons[index].turn_off()
				self.allow_updates(True)
				#self.set_suppress_rebuild_requests(False)
				self.request_rebuild_midi_map()
	

	def _deassign_all(self):
		self._assign_alternate_mappings(0)
		self._device_selector.set_enabled(False)
		for index in range(8):
			self._mixer.channel_strip(index).set_volume_control(None)
			self._mixer.channel_strip(index).set_pan_control(None)
			self._mixer.channel_strip(index).set_send_controls(tuple([None, None, None, None]))
		for index in range(4):
			self._device[index].set_enabled(False)
			self._device[index]._parameter_controls = None
			#self._device_navigator[index].set_enabled(False)
		self._special_device.set_enabled(False)
		self._special_device._parameter_controls = None
		self._device_selector.set_enabled(False)
		self._deassign_buttons()
		for control in self.controls:
			control.reset()
		self.request_rebuild_midi_map()
	

	def _deassign_buttons(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_select_button(None)
			self._mixer.channel_strip(index).set_solo_button(None)
			self._mixer.channel_strip(index).set_mute_button(None)
		self._mixer.set_select_buttons(None, None)
		self._send_reset.set_enabled(False)
	

	def _assign_volume(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_volume_control(self._dial[index][3])
			self._mixer.channel_strip(index).set_pan_control(self._dial[index][2])
			self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1]]))
			self._mixer.channel_strip(index).set_select_button(self._column_button[index])
			self._mixer.channel_strip(index).set_solo_button(self._button[index][2])
			self._mixer.channel_strip(index).set_mute_button(self._button[index][3])
		self._mixer.set_select_buttons(self._button[7][0], self._button[6][0])
	

	def _assign_sends(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1], self._dial[index][2], self._dial[index][3]]))
			self._mixer.channel_strip(index).set_select_button(self._column_button[index])
			self._send_reset.set_enabled(True)
	

	def _assign_devices(self):
		self.set_device_component(self._last_device_component)
		self._device_select_value(1, self._device_select_buttons[self._device.index(self._device_component)])
		for index in range(4):
			device_param_controls = []
			for control in range(8):
				device_param_controls.append(self._dial[control][index])
			self._device[index].set_parameter_controls(tuple(device_param_controls))
			self._device[index].set_enabled(True)
		self._device_selector.set_enabled(self._use_device_selector)
		if not self._use_device_selector:
			for index in range(8):
				self._mixer.channel_strip(index).set_select_button(self._column_button[index])				
	

	def _assign_special_device(self):
		self.set_device_component(self._special_device)
		device_param_controls = []
		for row in range(4):
			for column in range(8):
				device_param_controls.append(self._dial[column][row])
		self._special_device.set_parameter_controls(tuple(device_param_controls))
		self._special_device.set_enabled(True)
		self._device_selector.set_enabled(self._use_device_selector)
		if not self._use_device_selector:
			for index in range(8):
				self._mixer.channel_strip(index).set_select_button(self._column_button[index])	
	

	def _assign_alternate_mappings(self, chan):
		for column in self._dial:
			for control in column:
				control.set_channel(chan)
				control.set_enabled(chan is 0)
		for column in self._button:
			for control in column:
				control.set_channel(chan)
				control.set_enabled(chan is 0)
		for control in self._column_button:
			control.set_channel(chan)
			control.set_enabled(chan is 0)
		for control in self._row_button:
			control.set_channel(chan)
			control.set_enabled(chan is 0)
	


	"""general functionality"""
	def disconnect(self):
		"""clean things up on disconnect"""
		if not self._shift_button is None:
			if self._shift_button.value_has_listener(self._shift_value):
				self._shift_button.remove_value_listener(self._shift_value)
		for button in self._device_select_buttons:
			if button.value_has_listener(self._device_select_value):
				button.remove_value_listener(self._device_select_value)
		if self._session._is_linked():
			self._session._unlink()
		self.song().view.remove_selected_track_listener(self._update_selected_device)
		"""for cs in self._control_surfaces():
			for host in self._hosts:
				self.log_message('installed: ' + str(cs) + ' vs. ' + str(host))
				if str(type(cs)) == str(type(host)):
					self.log_message('disconnecting: ' + str(type(cs)))
					cs.disconnect(cs)"""
		#self._host._set_parameter_controls(None)
		self._hosts = []
		if self._linked_script != None:
			self._linked_script._update_linked_device_selection = None
		self._linked_script = None
		#self._disconnect_notifier.set_mode(0)
		self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec log closed >>>>>>>>>>>>>>>>>>>>>>>>>')
		ControlSurface.disconnect(self)
		return None
		
	

	def connect_script_instances(self, instanciated_scripts):
		found = False
		for s in instanciated_scripts:
			if '_codec_version' in dir(s):
				if s._codec_version == self._version_check:
					if s._host_name == ('MonOhm'):
						self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
						found = True
						self._linked_script = s
						self._linked_script._update_linked_device_selection = self._update_linked_device_selection
						if not self._session._is_linked() and self._link_mixer is True:
							self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
							self._session._link()
				else:
					self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
					

		if found == False:
			for s in instanciated_scripts:
				if '_codec_version' in dir(s):
					if s._codec_version == self._version_check:
						if s._host_name == 'BlockMod':
							self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
							self._linked_script = s
							self._linked_script._update_linked_device_selection = self._update_linked_device_selection
						if not self._session._is_linked() and self._link_mixer is True:
							self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
							self._session._link()
					else:
						self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
		#self.log_message('hosts: ' + str(self._hosts))"""
	

	def update_display(self):
		ControlSurface.update_display(self)		#since we are overriding this from the inherited method, we need to call the original routine as well
		self._timer = (self._timer + 1) % 256
		if(self._timer == 0):
			self._shift_pressed_timer = -12
		if(self._local_ring_control is False):
			self.send_ring_leds()
		self.flash()
	

	def handle_sysex(self, midi_bytes):
		#self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
		#response = [long(0),long(0)]
		#self.log_message(response)
		pass
	

	def flash(self):
		if(self.flash_status > 0):
			for control in self.controls:
				if isinstance(control, MonoButtonElement):
					control.flash(self._timer)
	

	def send_ring_leds(self):
		leds = [240, 0, 1, 97, 4, 31]
		for column in range(8):
			for row in range(4):
				wheel = self._dial[column][row]
				bytes = wheel._get_ring()
				leds.append(bytes[0])
				leds.append(int(bytes[1]) + int(bytes[2]))
				#if(row == 1 and column == 0):
				#	self.log_message(str(leds) + ' ' + str(bytes[0]) + ' ' + str(bytes[1]) + ' ' + str(bytes[2]))
		leds.append(247)
		self._send_midi(tuple(leds))
	

	def set_absolute_mode(self, val = 1):
		self._absolute_mode = (val!=0)
		if self._absolute_mode is True:
			self._send_midi(tuple([240, 0, 1, 97, 4, 17, 0, 0, 0, 0, 0, 0, 0, 0, 247]))
		else:
			self._send_midi(tuple([240, 0, 1, 97, 4, 17, 127, 127, 127, 127, 127, 127, 127, 127, 247]))
	

	def set_local_ring_control(self, val = 1):
		self._local_ring_control = (val!=0)
		if(self._local_ring_control is True):
			#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 0, 247]))
			self._send_midi(tuple([240, 0, 1, 97, 4, 8, 72, 247]))
		else:
			#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 1, 247]))
			self._send_midi(tuple([240, 0, 1, 97, 4, 8, 64, 247]))
	

	def device_follows_track(self, val):
		self._device_selection_follows_track_selection = (val == 1)
		return self
	


	"""m4l bridge"""
	def generate_strip_string(self, display_string):
		NUM_CHARS_PER_DISPLAY_STRIP = 12
		if (not display_string):
			return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
		if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
			display_string = display_string[:-2]
		if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
			for um in [' ',
			 'i',
			 'o',
			 'u',
			 'e',
			 'a']:
				while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
					um_pos = display_string.rfind(um, 1)
					display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
		else:
			display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
		ret = u''
		for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
			if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
				ret += ' '
			else:
				ret += display_string[i]

		ret += ' '
		assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
		return ret
	

	def notification_to_bridge(self, name, value, sender):
		if(isinstance(sender, CodecEncoderElement)):
			self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name)))
			self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value)))
	

	def touched(self):
		if not self._host.is_enabled():
			if self._touched is 0:
				self._monobridge._send('touch', 'on')
				self.schedule_message(2, self.check_touch)
			self._touched +=1
	

	def check_touch(self):
		if self._touched > 5:
			self._touched = 5
		elif self._touched > 0:
			self._touched -= 1
		if self._touched is 0:
			self._monobridge._send('touch', 'off')
		else:
			self.schedule_message(2, self.check_touch)
	

	def get_clip_names(self):
		clip_names = []
		for scene in self._session._scenes:
			for clip_slot in scene._clip_slots:
				if clip_slot.has_clip() is True:
					clip_names.append(clip_slot._clip_slot)##.clip.name)
					return clip_slot._clip_slot
					##self.log_message(str(clip_slot._clip_slot.clip.name))
		return clip_names
	


	"""overrides"""
	def allow_updates(self, allow_updates):
		for component in self.components:
			component.set_allow_update(int(allow_updates!=0))
	

	def set_device_component(self, device_component):
		if self._device_component != None:
			self._device_component._lock_callback = None
		assert (device_component != None)
		assert isinstance(device_component, DeviceComponent)
		self._device_component = device_component
		self._device_component._lock_callback = self._toggle_lock	#old:  self._device_component.set_lock_callback(self._toggle_lock)
		if self._device_select_buttons != None:
			for button in self._device_select_buttons:
				button.send_value(self._device_select_buttons.index(button) == self._device.index(self._device_component))
		self._update_device_selection()
		return None
	

	def _update_selected_device(self):
		if self._device_selection_follows_track_selection is True:
			self._update_device_selection()
		return None 
	

	def _update_linked_device_selection(self, device):
		#self.log_message('codec received ' + str(device.name))
		if self._device_component != None and device != None:
			if not self._device_component.is_locked():
				self._device_component.set_device(device)
	

	def _get_num_tracks(self):
		return self.num_tracks
	

	def _update_device_selection(self):
		#self.log_message('_update_device_selection')
		if self._device_component != None:
			if not self._device_component.is_locked():
				track = self.song().view.selected_track
				device_to_select = track.view.selected_device
				if ((device_to_select == None) and (len(track.devices) > 0)):
					device_to_select = track.devices[0]
				if (device_to_select != None):
					self.song().view.select_device(device_to_select)
				self._device_component.set_device(device_to_select)
 	

	def _channelstrip_mute_value(self, channelstrip):
		def _mute_value(value):
			if not self._shift_pressed:
				self.log_message('shift not pressed')
				ChannelStripComponent._mute_value(channelstrip, value)
		return _mute_value
		
	

	def _channelstrip_solo_value(self, channelstrip):
		def _solo_value(value):
			if not self._shift_pressed:
				ChannelStripComponent._solo_value(channelstrip, value)
		return _solo_value
		
	

	def _mixer_next_track_value(self, mixer):
		def _next_track_value(value):
			if not self._shift_pressed:
				MixerComponent._next_track_value(mixer, value)
		return _next_track_value
		
	

	def _mixer_prev_track_value(self, mixer):
		def _prev_track_value(value):
			if not self._shift_pressed:
				MixerComponent._prev_track_value(mixer, value)
		return _prev_track_value
		
	

	
class ParameterDefaultComponent(ControlSurfaceComponent):
	__module__ = __name__
	__doc__ = " MonoCode controller script "


	def __init__(self, script):
		"""everything except the '_on_selected_track_changed' override and 'disconnect' runs from here"""
		ControlSurfaceComponent.__init__(self)
		self._script = script
		self._buttons = []
		self._dials = []
	

	def set_buttons(self, buttons):
		for button in self._buttons:
			if button.value_has_listener(self._value_to_default):
				button.remove_value_listener(self._value_to_default)
		self._buttons = buttons
		for button in self._buttons:
			button.add_value_listener(self._value_to_default, True)
	

	def set_dials(self, dials):
		assert(len(dials) == len(self._buttons))
		self._dials = dials
	

	def _value_to_default(self, value, sender):
		if value > 0 and self._script._shift_pressed:
			dial = self._dials[self._buttons.index(sender)]
			if dial != None:
				if dial.mapped_parameter() != None:
					if hasattr(dial.mapped_parameter(), 'default_value'):
						dial.mapped_parameter().value = dial.mapped_parameter().default_value
	

	def update(self):
		pass
	

	def disconnect(self):
		for button in self._buttons:
			if button.value_has_listener(self._value_to_default):
				button.remove_value_listener(self._value_to_default)
	

#
#